Melbourne Veterinary School, Faculty of Veterinary and Agricultural Sciences, University of Melbourne, Australia.
Melbourne Veterinary School, Faculty of Veterinary and Agricultural Sciences, University of Melbourne, Australia; The University of Edinburgh, Royal (Dick) School of Veterinary Studies, United Kingdom.
Vet Immunol Immunopathol. 2024 May;271:110740. doi: 10.1016/j.vetimm.2024.110740. Epub 2024 Mar 16.
Intestinal mucus barrier disruption may occur with chronic inflammatory enteropathies. The lack of studies evaluating mucus health in dogs with chronic colitis arises from inherent challenges with assessment of the intestinal mucus layer. It is therefore unknown if reduced goblet cell (GBC) numbers and/or mucin 2 (MUC2) expression, which are responsible for mucus production and secretion, correlate with inflammation severity in dogs with granulomatous colitis (GC) or lymphocytic-plasmacytic colitis (LPC). It is undetermined if Ki-67 immunoreactivity, which has been evaluated in dogs with small intestinal inflammation, similarly correlates to histologic severity in GC and LPC. Study objectives included comparing Ki-67 immunoreactivity, GBC population and MUC2 expression in dogs with GC, LPC and non-inflamed colon; and exploring the use of ribonucleic acid (RNAscope®) in-situ hybridization (ISH) to evaluate MUC2 expression in canine colon. Formalin-fixed endoscopic colonic biopsies were obtained from 48 dogs over an eight-year period. A blinded pathologist reviewed all biopsies. Dogs were classified into the GC (n=19), LPC (n=19) or no colitis (NC) (n=10) group based on final histopathological diagnosis. Ki-67 immunohistochemistry, Alcian-Blue/PAS staining to highlight GBCs, and RNAscope® ISH using customized canine MUC2-targeted probes were performed. At least five microscopic fields per dog were selected to measure Ki-67 labelling index (KI67%), GBC staining percentage (GBC%) and MUC2 expression (MUC2%) using image analysis software. Spearman's correlation coefficients were used to determine associations between World Small Animal Veterinary Association histologic score (WHS) and measured variables. Linear regression models were used to compare relationships between WHS with KI67%, GBC%, and MUC2%; and between GBC% and MUC2%. Median WHS was highest in dogs with GC. Median KI67% normalised to WHS was highest in the NC group (6.69%; range, 1.70-23.60%). Median GBC% did not correlate with colonic inflammation overall. Median MUC2% normalised to WHS in the NC group (10.02%; range, 3.05-39.09%) was two- and three-fold higher than in the GC and LPC groups respectively. With increased colonic inflammation, despite minimal changes in GBC% overall, MUC2 expression markedly declined in the LPC group (-27.4%; 95%-CI, -49.8, 5.9%) and mildly declined in the GC and NC groups. Granulomatous colitis and LPC likely involve different pathways regulating MUC2 expression. Decreased MUC2 gene expression is observed in dogs with chronic colitis compared to dogs without colonic signs. Changes in MUC2 expression appear influenced by GBC activity rather than quantity in GC and LPC.
慢性炎症性肠病可能会破坏肠道粘液屏障。由于评估肠道粘液层存在固有挑战,因此缺乏评估慢性结肠炎犬粘液健康的研究。因此,尚不清楚杯状细胞 (GBC) 数量和/或粘蛋白 2 (MUC2) 表达减少,这是粘液产生和分泌的原因,是否与肉芽肿性结肠炎 (GC) 或淋巴细胞浆细胞性结肠炎 (LPC) 犬的炎症严重程度相关。Ki-67 免疫反应性在评估小肠炎症的犬中得到了评估,但其与 GC 和 LPC 组织学严重程度的相关性是否相似尚不确定。研究目的包括比较 GC、LPC 和非炎症性结肠犬的 Ki-67 免疫反应性、GBC 群体和 MUC2 表达;并探索使用 RNAscope®原位杂交 (ISH) 评估犬结肠中的 MUC2 表达。在八年期间,从 48 只狗中获得了福尔马林固定的内镜结肠活检。一位盲法病理学家审查了所有活检。根据最终的组织病理学诊断,将狗分为 GC(n=19)、LPC(n=19)或无结肠炎(NC)(n=10)组。进行 Ki-67 免疫组织化学、阿尔辛蓝/ PAS 染色以突出 GBC 以及使用定制的犬 MUC2 靶向探针的 RNAscope®ISH。使用图像分析软件,从每只狗中选择至少五个显微镜视野来测量 Ki-67 标记指数 (KI67%)、GBC 染色百分比 (GBC%) 和 MUC2 表达 (MUC2%)。使用 Spearman 相关系数确定世界小动物兽医协会组织学评分 (WHS) 与测量变量之间的关联。线性回归模型用于比较 WHS 与 KI67%、GBC% 和 MUC2%之间的关系;以及 GBC%和 MUC2%之间的关系。GC 犬的中位 WHS 最高。NC 组的 KI67% 与 WHS 归一化的中位数最高(6.69%;范围,1.70-23.60%)。GBC% 总体上与结肠炎症不相关。NC 组 MUC2% 与 WHS 归一化的中位数(10.02%;范围,3.05-39.09%)分别比 GC 和 LPC 组高两倍和三倍。尽管 GBC% 总体变化不大,但随着结肠炎症的增加,LPC 组的 MUC2 表达明显下降 (-27.4%;95%CI,-49.8,5.9%),GC 和 NC 组略有下降。肉芽肿性结肠炎和 LPC 可能涉及调节 MUC2 表达的不同途径。与无结肠征象的犬相比,慢性结肠炎犬的 MUC2 基因表达减少。在 GC 和 LPC 中,MUC2 表达的变化似乎受 GBC 活性而不是数量的影响。
